Experimental Nephrology, Department of Internal Medicine D, University Hospital Münster, 48149 Münster, Germany.
Institute of Physiology I, University of Münster, 48149 Münster, Germany.
Int J Mol Sci. 2024 Mar 2;25(5):2922. doi: 10.3390/ijms25052922.
Cisplatin (CDDP) stands out as an effective chemotherapeutic agent; however, its application is linked to the development of significant adverse effects, notably nephro- and ototoxicity. The human organic cation transporter 2 (hOCT2), found in abundance in the basolateral membrane domain of renal proximal tubules and the Corti organ, plays a crucial role in the initiation of nephro- and ototoxicity associated with CDDP by facilitating its uptake in kidney and ear cells. Given its limited presence in cancer cells, hOCT2 emerges as a potential druggable target for mitigating unwanted toxicities associated with CDDP. Potential strategies for mitigating CDDP toxicities include competing with the uptake of CDDP by hOCT2 or inhibiting hOCT2 activity through rapid regulation mediated by specific signaling pathways. This study investigated the interaction between the already approved cationic drugs disopyramide, imipramine, and orphenadrine with hOCT2 that is stably expressed in human embryonic kidney cells. Regarding disopyramide, its influence on CDDP cellular transport by hOCT2 was further characterized through inductively coupled plasma isotope dilution mass spectrometry. Additionally, its potential protective effects against cellular toxicity induced by CDDP were assessed using a cytotoxicity test. Given that hOCT2 is typically expressed in the basolateral membrane of polarized cells, with specific regulatory mechanisms, this work studied the regulation of hOCT2 that is stably expressed in Madin-Darby Canine Kidney (MDCK) cells. These cells were cultured in a matrix to induce the formation of cysts, exposing hOCT2 in the basolateral plasma membrane domain, which was freely accessible to experimental solutions. The study specifically tested the regulation of ASP uptake by hOCT2 in MDCK cysts through the inhibition of casein kinase II (CKII), calmodulin, or p56 tyrosine kinase. Furthermore, the impact of this manipulation on the cellular toxicity induced by CDDP was examined using a cytotoxicity test. All three drugs-disopyramide, imipramine, and orphenadrine-demonstrated inhibition of ASP uptake, with IC values in the micromolar (µM) range. Notably, disopyramide produced a significant reduction in the CDDP cellular toxicity and platinum cellular accumulation when co-incubated with CDDP. The activity of hOCT2 in MDCK cysts experienced a significant down-regulation under inhibition of CKII, calmodulin, or p56 tyrosine kinase. Interestingly, only the inhibition of p56 tyrosine kinase demonstrated the capability to protect the cells against CDDP toxicity. In conclusion, certain interventions targeting hOCT2 have demonstrated the ability to reduce CDDP cytotoxicity, at least in vitro. Further investigations in in vivo systems are warranted to ascertain their potential applicability as co-treatments for mitigating undesired toxicities associated with CDDP in patients.
顺铂(CDDP)是一种有效的化疗药物;然而,其应用与显著的不良反应的发展有关,特别是肾毒性和耳毒性。人有机阳离子转运体 2(hOCT2)在肾脏近端小管基底外侧膜域和 Corti 器官中大量存在,通过促进 CDDP 在肾脏和耳部细胞中的摄取,在与 CDDP 相关的肾毒性和耳毒性的发生中发挥关键作用。由于 hOCT2 在癌细胞中的含量有限,因此它成为减轻与 CDDP 相关的不必要毒性的潜在可用药靶标。减轻 CDDP 毒性的潜在策略包括与 hOCT2 竞争摄取 CDDP 或通过特定信号通路介导的快速调节来抑制 hOCT2 活性。本研究调查了已经批准的阳离子药物二异丙吡胺、丙咪嗪和奥芬那君与稳定表达于人胚胎肾细胞中的 hOCT2 之间的相互作用。关于二异丙吡胺,通过电感耦合等离子体质谱同位素稀释质谱进一步研究了其对 hOCT2 细胞内 CDDP 转运的影响。此外,还通过细胞毒性试验评估了其对 CDDP 诱导的细胞毒性的潜在保护作用。由于 hOCT2 通常在极化细胞的基底外侧膜表达,并具有特定的调节机制,因此本工作研究了稳定表达于 Madin-Darby Canine Kidney(MDCK)细胞中的 hOCT2 的调节。这些细胞在基质中培养以诱导小泡的形成,使 hOCT2 暴露在基底外侧质膜域中,实验溶液可自由进入该域。该研究专门通过抑制酪蛋白激酶 II(CKII)、钙调蛋白或 p56 酪氨酸激酶来测试 MDCK 小泡中 hOCT2 对 ASP 摄取的调节。此外,还通过细胞毒性试验检查了这种操作对 CDDP 诱导的细胞毒性的影响。三种药物——二异丙吡胺、丙咪嗪和奥芬那君——均表现出对 ASP 摄取的抑制作用,IC 值在微摩尔(µM)范围内。值得注意的是,当与 CDDP 共同孵育时,二异丙吡胺可显著降低 CDDP 的细胞毒性和铂细胞积累。在 CKII、钙调蛋白或 p56 酪氨酸激酶抑制下,MDCK 小泡中的 hOCT2 活性显著下调。有趣的是,只有 p56 酪氨酸激酶的抑制能够保护细胞免受 CDDP 毒性的影响。总之,针对 hOCT2 的某些干预措施已证明能够降低 CDDP 的细胞毒性,至少在体外是如此。需要在体内系统中进一步研究以确定它们作为减轻与 CDDP 相关的不良毒性的共同治疗方法在患者中的潜在适用性。
